Mu3e

AION: An Atom Interferometer Observatory and Network

Authors:

L Badurina, E Bentine, D Blas, K Bongs, D Bortoletto, T Bowcock, K Bridges, W Bowden, O Buchmueller, C Burrage, J Coleman, G Elertas, J Ellis, C Foot, V Gibson, Mg Haehnelt, T Harte, S Hedges, R Hobson, M Holynski, T Jones, M Langlois, S Lellouch, M Lewicki, R Maiolino, P Majewski, S Malik, J March-Russell, C McCabe, D Newbold, B Sauer, U Schneider, I Shipsey, Y Singh, Ma Uchida, T Valenzuela, M van der Grinten, V Vaskonen, J Vossebeld, D Weatherill, I Wilmut

Abstract:

We outline the experimental concept and key scientific capabilities of AION (Atom Interferometer Observatory and Network), a proposed UK-based experimental programme using cold strontium atoms to search for ultra-light dark matter, to explore gravitational waves in the mid-frequency range between the peak sensitivities of the LISA and LIGO/Virgo/ KAGRA/INDIGO/Einstein Telescope/Cosmic Explorer experiments, and to probe other frontiers in fundamental physics. AION would complement other planned searches for dark matter, as well as probe mergers involving intermediate mass black holes and explore early universe cosmology. AION would share many technical features with the MAGIS experimental programme in the US, and synergies would flow from operating AION in a network with this experiment, as well as with other atom interferometer experiments such as MIGA, ZAIGA and ELGAR. Operating AION in a network with other gravitational wave detectors such as LIGO, Virgo and LISA would also offer many synergies.

Combined CDF and D0 Upper Limits on Standard Model Higgs Boson Production with up to 8.2 fb$^-1$ of Data

Authors:

T Aaltonen, others

ILC Vertex Tracker R&D

Office of Scientific and Technical Information (OSTI)

Authors:

Marco Battaglia, Jean-Marie Bussat, Devis Contarato, Peter Denes, Lindsay Glesener, Leo Greiner, Benjamin Hooberman, Derek Shuman, Lauren Tompkins, Chinh Vu, Dario Bisello, Piero Giubilato, Devis Pantano, Marco Costa, Alessandro La Rosa, Gino Bolla, Daniela Bortoletto, Isaac Children

Medipix3 Demonstration and understanding of near ideal detector performance for 60 & 80 keV electrons

Authors:

JA Mir, R Clough, R MacInnes, C Gough, R Plackett, IAN Shipsey, H Sawada, I MacLaren, R Ballabriga, D Maneuski, V O'Shea, D McGrouther, ANGUS Kirkland

Abstract:

In our article we report first quantitative measurements of imaging performance for the current generation of hybrid pixel detector, Medipix3, as direct electron detector. Utilising beam energies of 60 & 80 keV, measurements of modulation transfer function (MTF) and detective quantum efficiency (DQE) have revealed that, in single pixel mode (SPM), energy threshold values can be chosen to maximize either the MTF or DQE, obtaining values near to, or even exceeding, those for an ideal detector. We have demonstrated that the Medipix3 charge summing mode (CSM) can deliver simultaneous, near ideal values of both MTF and DQE. To understand direct detection performance further we have characterized the detector response to single electron events, building an empirical model which can predict detector MTF and DQE performance based on energy threshold. Exemplifying our findings we demonstrate the Medipix3 imaging performance, recording a fully exposed electron diffraction pattern at 24-bit depth and images in SPM and CSM modes. Taken together our findings highlight that for transmission electron microscopy performed at low energies (energies <100 keV) thick hybrid pixel detectors provide an advantageous and alternative architecture for direct electron imaging

Sensor Compendium

Office of Scientific and Technical Information (OSTI)

Authors:

M Artuso, et al.